Nuclear and Particle Physics An Introduction

Martin Brian R.
Annet format / 2006 / Engelsk

Produktdetaljer

ISBN
9780470035474
Publisert
2006-05-31
Utgiver
Vendor
John Wiley & Sons Ltd
Vekt
908 gr
Høyde
254 mm
Bredde
175 mm
Dybde
32 mm
Aldersnivå
UU, 05
Språk
Product language
Engelsk
Format
Product format
Annet format
Antall sider
428

Forfatter
Martin Brian R.

Biographical note

Professor Brian R Martin, Department of Physics and Astronomy, University College London, Gower Street, London Professor Martin is a highly respected academic in his field and has already co-authored a successful book for Wiley (Particle Physics 2/E) that is part of the Manchester Physics Series. He has recently stepped down as Head of Department at UCL after 10 years in the post.

Nuclear and Particle Physics An Introduction

Martin Brian R.
Annet format / 2006 / Engelsk
Martin Brian R.
Annet format / 2006 / Engelsk
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Nuclear and Particle Physics is an accessible, balanced introduction to the subject and provides a readable and up-to-date overview of both the theoretical and experimental aspects of nuclear and particle physics. The emphasis is on the phenomenological approach to understanding experimental phenomena. The text opens with an introduction to the basic concepts used in nuclear and particle physics and then moves on to describe their respective phenomenologies and experimental methods. Later chapters explore the interpretation of data via models and theories, including the standard model of particle physics and the liquid drop model and shell model of nuclear physics. Several applications of nuclear physics are discussed, including nuclear medicine and the production of power from nuclear fission and fusion. The book closes with a chapter on outstanding problems, including extensions to the standard model, implications for particle astrophysics, improvements in medical imaging and the prospects for power production. Problems are included at the end of each chapter, with a full set of solutions provided. Accessible overview of nuclear and particle physics suitable for a first course in the subject.* Chapters are supplemented by an extensive set of problems with full solutions.* Includes Appendices on some topics in quantum mechanics and relativistic kinematics.* An invaluable text for all physics and astronomy students.
Les mer
Nuclear and Particle Physics is an accessible, balanced introduction to the subject and provides a readable and up-to-date overview of both the theoretical and experimental aspects of nuclear and particle physics. The emphasis is on the phenomenological approach to understanding experimental phenomena.
Les mer
Preface. Notes. Physical Constants and Conversion Factors. 1 Basic Concepts. 1.1 History. 1.2 Relativity and antiparticles. 1.3 Symmetries and conservation laws. 1.4 Interactions and Feynman diagrams. 1.5 Particle exchange: forces and potentials. 1.6 Observable quantities: cross sections and decay rates. 1.7 Units: length, mass and energy. Problems. 2 Nuclear Phenomenology. 2.1 Mass spectroscopy and binding energies. 2.2 Nuclear shapes and sizes. 2.3 Nuclear instability. 2.4 Radioactive decay. 2.5 Semi-empirical mass formula: the liquid drop model. 2.6 β-decay phenomenology. 2.8 α-decays. 2.9 Nuclear reactions. Problems. 3 Particle Phenomenology. 3.1 Leptons. 3.2 Quarks. 3.3 Hadrons. Problems. 4 Experimental Methods. 4.1 Overview 111 4.2 Accelerators and beams 113 4.3 Particle interactions with matter. 4.4 Particle detectors. 4.5 Layered detectors. Problems. 5 Quark Dynamics: the Strong Interaction. 5.1 Colour. 5.2 Quantum chromodynamics (QCD). 5.3 Heavy quark bound states. 5.4 The strong coupling constant and asymptotic freedom. 5.5 Jets and gluons. 5.6 Colour counting. 5.7 Deep inelastic scattering and nucleon structure. Problems. 6 Electroweak Interactions. 6.1 Charged and neutral currents. 6.2 Symmetries of the weak interaction. 6.3 Spin structure of the weak interactions. 6.4 W+- and Z0 bosons. 6.5 Weak interactions of hadrons. 6.6 Neutral meson decays. 6.7 Neutral currents and the unified theory. Problems. 7 Models and Theories of Nuclear Physics. 7.1 The nucleon - nucleon potential. 7.2 Fermi gas model. 7.3 Shell model. 7.4 Non-spherical nuclei. 7.5 Summary of nuclear structure models. 7.6 α-decay. 7.7 β-decay. 7.8 γ-emission and internal conversion. Problems. 8 Applications of Nuclear Physics. 8.1 Fission. 8.2 Fusion. 8.3 Biomedical applications. Problems. 9 Outstanding Questions and Future Prospects. 9.1 Particle physics. 9.2 Nuclear physics. Appendix A: Some Results in Quantum Mechanics. A.1 Barrier penetration. A.2 Density of states. A.3 Perturbation theory and the Second Golden Rule. Appendix B: Relativistic Kinematics. B.1 Lorentz transformations and four-vectors. B.2 Frames of reference. B.3 Invariants. Problems. Appendix C: Rutherford Scattering. C.1 Classical physics. C.2 Quantum mechanics. Problems. Appendix D: Solutions to Problems. References. Bibliography. Index.
Les mer
"Enthusiastically recommended as a useful addition to any college or university library." (CHOICE, December 2006)

Relaterte produkter

Nuclear and Particle Physics is an accessible, balanced introduction to the subject and provides a readable and up-to-date overview of both the theoretical and experimental aspects of nuclear and particle physics. The emphasis is on the phenomenological approach to understanding experimental phenomena. The text opens with an introduction to the basic concepts used in nuclear and particle physics and then moves on to describe their respective phenomenologies and experimental methods. Later chapters explore the interpretation of data via models and theories, including the standard model of particle physics and the liquid drop model and shell model of nuclear physics. Several applications of nuclear physics are discussed, including nuclear medicine and the production of power from nuclear fission and fusion. The book closes with a chapter on outstanding problems, including extensions to the standard model, implications for particle astrophysics, improvements in medical imaging and the prospects for power production. Problems are included at the end of each chapter, with a full set of solutions provided. Accessible overview of nuclear and particle physics suitable for a first course in the subject.* Chapters are supplemented by an extensive set of problems with full solutions.* Includes Appendices on some topics in quantum mechanics and relativistic kinematics.* An invaluable text for all physics and astronomy students.
Les mer
Nuclear and Particle Physics is an accessible, balanced introduction to the subject and provides a readable and up-to-date overview of both the theoretical and experimental aspects of nuclear and particle physics. The emphasis is on the phenomenological approach to understanding experimental phenomena.
Les mer
Preface. Notes. Physical Constants and Conversion Factors. 1 Basic Concepts. 1.1 History. 1.2 Relativity and antiparticles. 1.3 Symmetries and conservation laws. 1.4 Interactions and Feynman diagrams. 1.5 Particle exchange: forces and potentials. 1.6 Observable quantities: cross sections and decay rates. 1.7 Units: length, mass and energy. Problems. 2 Nuclear Phenomenology. 2.1 Mass spectroscopy and binding energies. 2.2 Nuclear shapes and sizes. 2.3 Nuclear instability. 2.4 Radioactive decay. 2.5 Semi-empirical mass formula: the liquid drop model. 2.6 β-decay phenomenology. 2.8 α-decays. 2.9 Nuclear reactions. Problems. 3 Particle Phenomenology. 3.1 Leptons. 3.2 Quarks. 3.3 Hadrons. Problems. 4 Experimental Methods. 4.1 Overview 111 4.2 Accelerators and beams 113 4.3 Particle interactions with matter. 4.4 Particle detectors. 4.5 Layered detectors. Problems. 5 Quark Dynamics: the Strong Interaction. 5.1 Colour. 5.2 Quantum chromodynamics (QCD). 5.3 Heavy quark bound states. 5.4 The strong coupling constant and asymptotic freedom. 5.5 Jets and gluons. 5.6 Colour counting. 5.7 Deep inelastic scattering and nucleon structure. Problems. 6 Electroweak Interactions. 6.1 Charged and neutral currents. 6.2 Symmetries of the weak interaction. 6.3 Spin structure of the weak interactions. 6.4 W+- and Z0 bosons. 6.5 Weak interactions of hadrons. 6.6 Neutral meson decays. 6.7 Neutral currents and the unified theory. Problems. 7 Models and Theories of Nuclear Physics. 7.1 The nucleon - nucleon potential. 7.2 Fermi gas model. 7.3 Shell model. 7.4 Non-spherical nuclei. 7.5 Summary of nuclear structure models. 7.6 α-decay. 7.7 β-decay. 7.8 γ-emission and internal conversion. Problems. 8 Applications of Nuclear Physics. 8.1 Fission. 8.2 Fusion. 8.3 Biomedical applications. Problems. 9 Outstanding Questions and Future Prospects. 9.1 Particle physics. 9.2 Nuclear physics. Appendix A: Some Results in Quantum Mechanics. A.1 Barrier penetration. A.2 Density of states. A.3 Perturbation theory and the Second Golden Rule. Appendix B: Relativistic Kinematics. B.1 Lorentz transformations and four-vectors. B.2 Frames of reference. B.3 Invariants. Problems. Appendix C: Rutherford Scattering. C.1 Classical physics. C.2 Quantum mechanics. Problems. Appendix D: Solutions to Problems. References. Bibliography. Index.
Les mer
"Enthusiastically recommended as a useful addition to any college or university library." (CHOICE, December 2006)

Produktdetaljer

ISBN
9780470035474
Publisert
2006-05-31
Utgiver
Vendor
John Wiley & Sons Ltd
Vekt
908 gr
Høyde
254 mm
Bredde
175 mm
Dybde
32 mm
Aldersnivå
UU, 05
Språk
Product language
Engelsk
Format
Product format
Annet format
Antall sider
428

Forfatter
Martin Brian R.

Biographical note

Professor Brian R Martin, Department of Physics and Astronomy, University College London, Gower Street, London Professor Martin is a highly respected academic in his field and has already co-authored a successful book for Wiley (Particle Physics 2/E) that is part of the Manchester Physics Series. He has recently stepped down as Head of Department at UCL after 10 years in the post.

Relaterte produkter